Chapter5Class3 - Chemistry at Winthrop University
... cars from skidding. In fact, for every banked curve, there is one speed at which the entire centripetal force is supplied by the ...
... cars from skidding. In fact, for every banked curve, there is one speed at which the entire centripetal force is supplied by the ...
Motion In Review
... • It gives everything a weight • If gravity didn’t exist we would float around like astronauts in space ...
... • It gives everything a weight • If gravity didn’t exist we would float around like astronauts in space ...
Lecture 16 Friday October 10
... • What supplies the force to make your acceleration such as to cause you to move in a circle? • Centripetal FORCE—towards the center. This is the real force involved. ...
... • What supplies the force to make your acceleration such as to cause you to move in a circle? • Centripetal FORCE—towards the center. This is the real force involved. ...
Geography 04b
... accelerating, whereas accelerometers on the Earth would record nothing unusual down there. Remember that velocity is relative but acceleration is absolute. In order for there to be no fictitious forces we must use a so-called inertial reference frame, i.e. one which is not accelerating. Now let us r ...
... accelerating, whereas accelerometers on the Earth would record nothing unusual down there. Remember that velocity is relative but acceleration is absolute. In order for there to be no fictitious forces we must use a so-called inertial reference frame, i.e. one which is not accelerating. Now let us r ...
Name - TeacherWeb
... Explain how the use of the brakes changes the motion of the bicycle. How does the mass of the bicycle affect the force that needs to be applied to the brakes? (3 points) ...
... Explain how the use of the brakes changes the motion of the bicycle. How does the mass of the bicycle affect the force that needs to be applied to the brakes? (3 points) ...
Fiz 235 Mechanics 2002
... b) How much energy is released in the explosion? 2) For a uniform thin rod (mass M, length L) - L/2 a) Find the moment of inertia (IAA’) b) Find the radius of gyration, about AA’ axis. A ...
... b) How much energy is released in the explosion? 2) For a uniform thin rod (mass M, length L) - L/2 a) Find the moment of inertia (IAA’) b) Find the radius of gyration, about AA’ axis. A ...
for reference Name Period ______ Date ______ Motion Notes from
... Velocity: speed in a given direction. Velocity specifies distance, time, and the direction of travel. Acceleration: The rate of change in velocity. To calculate acceleration, use this equation: Acceleration = (Final Velocity) - (Original Velocity) / Time Deceleration: A term commonly used to mea ...
... Velocity: speed in a given direction. Velocity specifies distance, time, and the direction of travel. Acceleration: The rate of change in velocity. To calculate acceleration, use this equation: Acceleration = (Final Velocity) - (Original Velocity) / Time Deceleration: A term commonly used to mea ...
Environmental Physics for Freshman Geography Students
... accelerating, whereas accelerometers on the Earth would record nothing unusual down there. Remember that velocity is relative but acceleration is absolute. In order for there to be no fictitious forces we must use a so-called inertial reference frame, i.e. one which is not accelerating. Now let us r ...
... accelerating, whereas accelerometers on the Earth would record nothing unusual down there. Remember that velocity is relative but acceleration is absolute. In order for there to be no fictitious forces we must use a so-called inertial reference frame, i.e. one which is not accelerating. Now let us r ...
Warm-up
... 1. If a toy train has a mass of 1.5 kg & accelerates at a rate of 20 m/s2, what is the amount of force acting on it? 2. Make a Venn diagram comparing/contrasting gravity & friction. ...
... 1. If a toy train has a mass of 1.5 kg & accelerates at a rate of 20 m/s2, what is the amount of force acting on it? 2. Make a Venn diagram comparing/contrasting gravity & friction. ...
Forces “Push,” “Pull,” or “Lift up”
... uniform speed in a straight line unless acted upon by a non net force. • The tendency of a body to maintain its state of rest or of uniform motion in a straight line is called inertia. • Mass is a measure of the inertia of a body. Mass is a measure of the body itself. ...
... uniform speed in a straight line unless acted upon by a non net force. • The tendency of a body to maintain its state of rest or of uniform motion in a straight line is called inertia. • Mass is a measure of the inertia of a body. Mass is a measure of the body itself. ...
Quiz
... 5. What is the moment of inertia about its centre of gravity of a 7.5 kg thigh if the thigh’s length is 35 cm and its radius of gyration is 50% of the length? a) 0.230 kg.m2 b) 1.313 kg.m2 c) 2.63 kg.m2 d) 0.919 kg.m2 ...
... 5. What is the moment of inertia about its centre of gravity of a 7.5 kg thigh if the thigh’s length is 35 cm and its radius of gyration is 50% of the length? a) 0.230 kg.m2 b) 1.313 kg.m2 c) 2.63 kg.m2 d) 0.919 kg.m2 ...
Uniform Circular Motion
... Dynamics of Uniform Circular Motion What force causes an object to have centripetal acceleration? ...
... Dynamics of Uniform Circular Motion What force causes an object to have centripetal acceleration? ...
Dynamics of Uniform Circular Motion π
... ⇒ An object in uniform circular motion is accelerating because its direction is constantly changing. Period (T): time for one complete revolution Speed: v = ...
... ⇒ An object in uniform circular motion is accelerating because its direction is constantly changing. Period (T): time for one complete revolution Speed: v = ...
